Engineering & Materials Science
Oligomers
100%
Nickel-Phosphorus
54%
Crosslinking
49%
Free energy
41%
Polyimides
40%
Stars
35%
Carboxylic acids
33%
Resistors
33%
Characterization (materials science)
30%
Substrates
24%
Phase separation
22%
Catalysts
18%
Activation energy
18%
Thermoanalysis
18%
Ring opening polymerization
17%
Mass transfer
15%
Contact angle
15%
Reactive ion etching
14%
Adhesion
13%
Acoustic impedance
8%
Hot Temperature
8%
Polytetrafluoroethylenes
7%
Endothelial cells
7%
Hydrophobicity
6%
Coatings
6%
Surface treatment
6%
Molecular weight
5%
Thin films
5%
Chemical Compounds
Crosslinking Kinetics
60%
Oligomer
55%
Surface Free Energy
39%
Polyimide Macromolecule
33%
Liquid Film
33%
Crosslinking
33%
Electrical Resistance
20%
Etching
18%
Carboxylic Acid
17%
Phase Separation
15%
Thermoanalysis
14%
Mass Transfer
14%
Poly(tetrafluoroethylene)
14%
Surface
12%
Reaction Activation Energy
11%
Ring Opening Polymerisation
10%
Tetradecane
9%
Environment
9%
Deposition Process
9%
Catalyst
9%
Diethylene Glycol
8%
Decane
8%
Ion
8%
Formamide
7%
Surface Modification
7%
Coating Agent
7%
Succinic Anhydride
6%
Ethylene Glycol
6%
Drop
5%
Glycerol
5%
Polarity
5%
Atomic Force Microscopy
5%
Resistance
5%
Spreading
5%
Physics & Astronomy
evaluation
43%
polyimides
35%
resistors
35%
phosphorus
33%
free energy
28%
nickel
27%
adhesion
15%
electrical resistance
12%
polytetrafluoroethylene
8%
etching
7%
glycols
7%
durability
6%
